Your search keyword '"Alice Bartolini"' showing total 10 results

1. Abstract 6402: The effects of cytotoxic chemotherapy on colorectal cancer immunogenicity

Author

Pietro Paolo Vitiello, Rosaria Chilà, Giuseppe Rospo, Gaia Grasso, Giovanni Crisafulli, Alice Bartolini, Vito Amodio, Federica Di Nicolantonio, Giovanni Germano, and Alberto Bardelli

Subjects

Cancer Research, Oncology

Abstract

Introduction: Immunotherapy based on PD1/PDL1 and/or CTLA4 blocking antibodies has shown efficacy in the molecular subgroup of colorectal cancers (CRCs) characterized by deficient mismatch repair (MMRd). This feature, present in only 4-5% of metastatic CRCs, causes a significant increase of tumor mutational burden (TMB) and tumor neoantigens, ultimately leading to immune rejection. On the other hand, for the majority of MMR proficient (MMRp) CRCs, cytotoxic chemotherapy ± targeted agents still constitute the mainstay of the treatment Interestingly, even though it is known that cytotoxic agents induce mutations, their immunogenic potential is still not fully understood. The aim of this work is to systematically investigate the immunogenicity of chemotherapy-induced mutations in CRC. Methods: We performed a two-step experiment: first, murine CRC models were exposed to chemotherapy agents in an immune-free context (priming phase) and then challenged in immune-deficient and -proficient contexts (editing phase). Chemotherapy agents included the commonly used cytotoxic drugs 5-fluorouracil (5FU), oxaliplatin, SN38 (the active metabolite of irinotecan), cisplatin, and temozolomide, used as single drugs or combinations, in a pulsatile schedule using weekly ‘cycles’ (2 days on/5 days off) in order to mimic drug exposure in clinical settings. Whole exome sequencing (WES) was performed at baseline, and after both the priming and the editing phases. Results and discussion: WES analysis showed that cisplatin-based treatment is associated with the highest increase in TMB and predicted neoantigens when compared to 5FU-based combinations. Multiple mutational processes contribute to the accumulation of mutations upon exposure to chemotherapy, as revealed by analysis of mutational signatures. A statistically significant growth delay and increased survival was reported for tumors primed with cisplatin/temozolomide and 5FU/Oxaliplatin/SN38 (FOLFOXIRI) combinations compared to unprimed tumors in immunocompetent but not in immunodeficient mice, suggesting the active involvement of the immune system in controlling tumor growth. Sequencing data of residual (escaped) tumors at the end of the editing phase revealed a preferential loss of mutations etiologically linked to chemotherapy in the immunocompetent models, pinpointing an active immune-editing of chemotherapy-induced mutations. Conclusions: Cisplatin/temozolomide and FOLFOXIRI treatment effectively prime murine CRC models for subsequent immune rejection. These results suggest that the anticancer effect of chemotherapy treatment may be in part mediated by the immune-editing of chemotherapy-induced mutant cancer subclones. Citation Format: Pietro Paolo Vitiello, Rosaria Chilà, Giuseppe Rospo, Gaia Grasso, Giovanni Crisafulli, Alice Bartolini, Vito Amodio, Federica Di Nicolantonio, Giovanni Germano, Alberto Bardelli. The effects of cytotoxic chemotherapy on colorectal cancer immunogenicity. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 6402.

Published

2023

2. Abstract 6262: Emergence of tumor mismatch repair deficiency and increased mutational burden in blood and tissue of metastatic colorectal cancer patients treated with temozolomide

Author

Giovanni Crisafulli, Andrea Sartore-Bianchi, Luca Lazzari, Filippo Pietrantonio, Alessio Amatu, Marco Macagno, Ludovic Barault, Andrea Cassingena, Alice Bartolini, Paolo Luraghi, Gianluca Mauri, Paolo Battuello, Nicola Personemi, Valeria Pessei, Pietro Paolo Vitiello, Federica Tosi, Laura Idotta, Emanuele Valtorta, Emanuela Bonoldi, Giovanni Germano, Federica Di Nicolantonio, Silvia Marsoni, Salvatore Siena, and Alberto Bardelli

Subjects

Cancer Research, Oncology

Abstract

The majority of metastatic colorectal cancers (mCRC) are mismatch repair (MMR) proficient (MMRp) and unresponsive to immunotherapy, while MMR deficient (MMRd) tumors often respond to immune checkpoint blockade (ICB). We previously reported that treatment of CRC preclinical models with temozolomide (TMZ) leads to MMR deficiency, increased tumor mutational burden (TMB) and, sensitization to immunotherapy. To clinically translate these findings, we designed the ARETHUSA clinical trial whereby O6-Methylguanine-DNA-methyltransferase (MGMT) deficient, MMR proficient and KRAS mutant mCRC patients receive priming therapy with TMZ. Analysis of solid tissue biopsies and circulating tumor DNA (ctDNA) obtained after TMZ treatment revealed the emergence of TMZ mutational signature, alterations in MMR genes and increased TMB in 14 out of 16 patients. Genetic mutations induced by TMZ were dose-dependent and multiple alterations in the nucleotide context favored by the TMZ signature emerged in MMR genes such as the MSH6 T1219I variant which was detected in ctDNA and tissue of 13/14 (93%) of the cases. A subset of the patients whose tumors after TMZ priming displayed the MSH6 mutation, the TMZ mutational signature and increased TMB, achieved disease stabilization upon pembrolizumab treatment. Overall, we provide proof-of-concept that treatment of MGMT deficient/MMR proficient KRAS mutant mCRCs with TMZ can be tracked by mutational signature analysis and lead to inactivation of the MMR pathway, emergence of the TMZ mutational signature, TMB increase, and, in some cases, to disease stabilization during ICB. Citation Format: Giovanni Crisafulli, Andrea Sartore-Bianchi, Luca Lazzari, Filippo Pietrantonio, Alessio Amatu, Marco Macagno, Ludovic Barault, Andrea Cassingena, Alice Bartolini, Paolo Luraghi, Gianluca Mauri, Paolo Battuello, Nicola Personemi, Valeria Pessei, Pietro Paolo Vitiello, Federica Tosi, Laura Idotta, Emanuele Valtorta, Emanuela Bonoldi, Giovanni Germano, Federica Di Nicolantonio, Silvia Marsoni, Salvatore Siena, Alberto Bardelli. Emergence of tumor mismatch repair deficiency and increased mutational burden in blood and tissue of metastatic colorectal cancer patients treated with temozolomide [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 6262.

Published

2022

3. Molecular Landscape of Acquired Resistance to Targeted Therapy Combinations in BRAF-Mutant Colorectal Cancer

Author

Andrea Sartore-Bianchi, Margherita Gallicchio, Erin M. Sennott, Alice Bartolini, Federica Di Nicolantonio, Julieta Grasselli, Valentina Boscaro, Alberto Bardelli, Jan H.M. Schellens, Giovanni Crisafulli, Salvatore Siena, Jason T. Godfrey, Andrea Cassingena, Jeffrey A. Engelman, Genny Filiciotto, Giorgio Corti, Giulia Siravegna, Mauro Truini, Josep Tabernero, Giulia Marzolla, Michael Linnebacher, Carlotta Cancelliere, Sabrina Arena, René Bernards, Emanuele Valtorta, Ludovic Barault, Daniele Oddo, Michela Buscarino, Ryan B. Corcoran, Elena Elez, Robin M.J.M. van Geel, MUMC+: DA KFT Laboratorium (9), and RS: FHML non-thematic output

Subjects

Proto-Oncogene Proteins B-raf, 0301 basic medicine, MAPK/ERK pathway, Cancer Research, endocrine system diseases, Colorectal cancer, medicine.medical_treatment, Gene Dosage, colorectal cancer, Drug resistance, medicine.disease_cause, Article, BRAF, ERK inhibitors, Targeted therapy, 03 medical and health sciences, 0302 clinical medicine, cetuximab, medicine, Humans, neoplasms, EGFR inhibitors, drug resistance, Cetuximab, business.industry, BRAF, colorectal cancer, drug resistance, cetuximab, ERK inhibitors, Gene Amplification, Cancer, medicine.disease, digestive system diseases, 3. Good health, 030104 developmental biology, Oncology, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Cancer research, KRAS, Colorectal Neoplasms, business, Signal Transduction, medicine.drug

Abstract

Although recent clinical trials of BRAF inhibitor combinations have demonstrated improved efficacy in BRAF-mutant colorectal cancer, emergence of acquired resistance limits clinical benefit. Here, we undertook a comprehensive effort to define mechanisms underlying drug resistance with the goal of guiding development of therapeutic strategies to overcome this limitation. We generated a broad panel of BRAF-mutant resistant cell line models across seven different clinically relevant drug combinations. Combinatorial drug treatments were able to abrogate ERK1/2 phosphorylation in parental-sensitive cells, but not in their resistant counterparts, indicating that resistant cells escaped drug treatments through one or more mechanisms leading to biochemical reactivation of the MAPK signaling pathway. Genotyping of resistant cells identified gene amplification of EGFR, KRAS, and mutant BRAF, as well as acquired mutations in KRAS, EGFR, and MAP2K1. These mechanisms were clinically relevant, as we identified emergence of a KRAS G12C mutation and increase of mutant BRAF V600E allele frequency in the circulating tumor DNA of a patient at relapse from combined treatment with BRAF and MEK inhibitors. To identify therapeutic combinations capable of overcoming drug resistance, we performed a systematic assessment of candidate therapies across the panel of resistant cell lines. Independent of the molecular alteration acquired upon drug pressure, most resistant cells retained sensitivity to vertical MAPK pathway suppression when combinations of ERK, BRAF, and EGFR inhibitors were applied. These therapeutic combinations represent promising strategies for future clinical trials in BRAF-mutant colorectal cancer. Cancer Res; 76(15); 4504–15. ©2016 AACR.

Published

2016

4. Abstract 2848: Radiographic and genomic evolution of individual metastases during HER2 blockade in colorectal cancer

Author

Alice Vanzati, Erica Bonazzina, Cosimo Martino, Salvatore Siena, Giovanni Crisafulli, Francesco Leone, Richard B. Lanman, Giorgio Corti, Andrea Sartore-Bianchi, Sara Lonardi, Mariangela Russo, Livio Trusolino, Vittorina Zagonel, Silvia Ghezzi, Luca Lazzari, Alessio Amatu, Andrea Cassingena, Angelo Vanzulli, Alice Bartolini, Giulia Siravegna, Monica Montone, Benedetta Mussolin, Antonella Balsamo, Silvia Marsoni, Federica Di Nicolantonio, Alberto Bardelli, Francesca Lodi, Pamela Arcella, Daniele Regge, Rebecca Nagy, Emanuele Valtorta, Giovanni Cappello, Mauro Truini, and Andrea Bertotti

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Colorectal cancer, Cancer, medicine.disease, Lapatinib, Blockade, ERBB2 Amplification, Trastuzumab, Circulating tumor DNA, Precision oncology, Internal medicine, medicine, skin and connective tissue diseases, business, medicine.drug

Abstract

Targeting HER2 with trastuzumab and lapatinib is effective in ERBB2 amplified metastatic colorectal cancer (mCRC). Although at least 30% of the patients initially respond, secondary resistance occurs in most of the cases. Since the drivers of secondary resistance to trastuzumab and lapatinib in ERBB2 amplified mCRC are unknown, we exploited longitudinal plasma collections and patient-derived cell models to define the molecular bases of resistance to HER2 blockade. Levels of ERBB2 amplification in plasma circulating tumor DNA (ctDNA) paralleled response and relapse. The emergence of EGFR, ERBB2, RAS, BRAF and PIK3CA variants in ctDNA was associated with resistance. Radiographic measurements of individual metastases coupled with longitudinal liquid biopsies unveiled lesion-specific patterns of heterogeneous response in several patients. Phylogenetic tracking and functional analyses on tissue samples and patient-derived cell models established from eight metastases of a single case revealed new druggable oncogenic dependencies and genomic evolution associated with resistance. These data highlight the relevance of coupling imaging and liquid biopsies analyses in precision oncology and provide the rationale for additional lines of therapies in HER2 positive mCRC relapsing upon HER2 blockade. Citation Format: Giulia Siravegna, Luca Lazzari, Andrea Sartore-Bianchi, Giovanni Crisafulli, Benedetta Mussolin, Andrea Cassingena, Cosimo Martino, Richard Lanman, Rebecca Nagy, Giorgio Corti, Alice Bartolini, Pamela Arcella, Monica Montone, Francesca Lodi, Alice Vanzati, Emanuele Valtorta, Giovanni Cappello, Andrea Bertotti, Sara Lonardi, Vittorina Zagonel, Francesco Leone, Mariangela Russo, Antonella Balsamo, Mauro Truini, Federica Di Nicolantonio, Alessio Amatu, Erica Bonazzina, Silvia Ghezzi, Daniele Regge, Angelo Vanzulli, Livio Trusolino, Salvatore Siena, Silvia Marsoni, Alberto Bardelli. Radiographic and genomic evolution of individual metastases during HER2 blockade in colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2848.

Published

2018

5. Abstract 5723: Inactivation of DNA repair triggers neoantigen generation and impairs tumor growth

Author

Salvatore Siena, Filippo de Braud, Enrico Giraudo, Mariangela Russo, Federica Maione, Benedetta Mussolin, Ludovic Barault, Giulia Siravegna, Nabil Amirouchene-Angelozzi, Giovanni Germano, Andrea Sartore-Bianchi, Roberta Frapolli, Alice Bartolini, Federica Morano, Monica Montone, Armando Orlandi, Maurizio D'Incalci, Giuseppe Rospo, Giulia Lerda, Alberto Bardelli, Giovanni Crisafulli, Alessandro Magrì, Silvia Marsoni, Simona Lamba, Federica DiNicolantonio, and Filippo Pietrantonio

Subjects

0301 basic medicine, Cancer Research, DNA repair, Cancer, Biology, MLH1, medicine.disease, Immune checkpoint, Transplantation, 03 medical and health sciences, 030104 developmental biology, Immune system, Oncology, Cancer cell, Cancer research, medicine, DNA mismatch repair

Abstract

Colorectal, ovarian, endometrial and other tumors carrying defects in DNA mismatch repair often show favorable prognosis and indolent progression. The genomes of these tumors bear hundreds of thousands of somatic mutations, a feature which fosters cancer progression and might lead to rapid evolution of resistance to targeted therapies. Recent evidences that a subset of MSI (microsatellite instable) tumors respond prominently to immune checkpoint blockade led to the hypothesis that the presence of high number of somatic mutations may be responsible for effective immune-surveillance. However, several reports indicate that a relevant fraction of hyper-mutated tumors have unfavorable prognosis and do not respond to immune-modulators. To understand the molecular and functional bases of response to immune checkpoint inhibitors, we genetically inactivated MutL homolog 1 (MLH1) in colorectal, breast and pancreatic mouse cancer cells. The growth of MMR deficient cells was comparable to their proficient counterparts in vitro and upon transplantation in immune-compromised mice. However, isogenic MMR deficient cancer cells, acquiring alterations over time, were unable to form tumors when injected subcutaneously or orthotopically in syngeneic mouse models according to cell-passage number. Moreover, we found that MMR-driven dynamic generation of neoantigens, when restricted to a clonal population, further increases immune detection. Mechanistically, MLH1 inactivation increased the mutational burden and led to dynamic mutational profiles, resulting in persistent renewal of neoantigens in vitro and in vivo, while control cells exhibited stable mutational loads and neoantigen profiles over time. These results led us hypothesize that enforced increase of the number of mutations in cancer cells could restrict cancer growth and might be beneficial for therapeutic purposes. We therefore performed a pharmacological screen to identify agents capable of permanent inactivation of MMR in colorectal, breast and PDAC cancer cells. We found that temozolomide triggers MLH1 inactivation in cancer cells that -as a result- are unable to form tumors in syngeneic animals. Genomic analysis of temozolomide resistant cells revealed that fluctuating levels of neoantigens, rather than the absolute number of mutations, might be critical to provoke immune surveillance. Overall, these results provide the rationale for developing innovative anticancer therapies based on inhibition of DNA repair mechanisms. Citation Format: Giovanni Germano, Simona Lamba, Giuseppe Rospo, Ludovic Barault, Alessandro Magri', Federica Maione, Mariangela Russo, Giovanni Crisafulli, Alice Bartolini, Giulia Lerda, Giulia Siravegna, Benedetta Mussolin, Roberta Frapolli, Monica Montone, Federica Morano, Filippo de Braud, Nabil Amirouchene-Angelozzi, Silvia Marsoni, Maurizio D'Incalci, Armando Orlandi, Enrico Giraudo, Andrea Sartore-Bianchi, Salvatore Siena, Filippo Pietrantonio, Federica DiNicolantonio, Alberto Bardelli. Inactivation of DNA repair triggers neoantigen generation and impairs tumor growth [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5723.

Published

2018

6. Abstract 2743: Accumulation of predicted neoantigens by MMR deficiency triggered by temozolomide treatment of human colorectal cancer

Author

Giulia Siravegna, Armando Orlandi, Alessandro Magrì, Filippo de Braud, Giovanni Crisafulli, Chiara Falcomatà, Alice Bartolini, Salvatore Siena, Carlotta Cancelliere, Andrea Sartore-Bianchi, Roberta Frapolli, Enrico Giraudo, Giovanni Randon, Giuseppe Rospo, Monica Montone, Giulia Lerda, Nabil Amirouchene-Angelozzi, Mariangela Russo, Maurizio D'Incalci, Federica Di Nicolantonio, Silvia Marsoni, Giovanni Germano, Alberto Bardelli, Simona Lamba, Ludovic Barault, Federica Maione, Filippo Pietrantonio, and Benedetta Mussolin

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Temozolomide, Methyltransferase, Colorectal cancer, business.industry, Dacarbazine, Cancer, medicine.disease, digestive system diseases, MSH6, MSH2, Internal medicine, medicine, DNA mismatch repair, business, medicine.drug

Abstract

Recent clinical trials have reported that alkylating agents, such as dacarbazine and temozolomide (TMZ) are effective in 10-15% metastatic colorectal cancer (mCRC) patients. In a retrospective analysis of 105 mCRC patients enrolled in clinical trials with alkylating agents, we saw that O6-methylguanine-DNA- methyltransferase (MGMT, the enzyme responsible for repairing drug induced DNA adducts), promoter methylation and protein status could identify a patient subgroup more likely to benefit from these drugs. However, the time to progression of patients treated with alkylating agents was limited by the onset of resistance. In order to identify determinants of response to these agents, we tested TMZ in a collection of 47 molecularly annotated CRC cell lines. We found that only cells displaying mismatch repair (MMR) proficiency as well as promoter methylation and transcriptional silencing of MGMT were sensitive to the treatment. Sensitive cells were chronically exposed to TMZ until the emergence of resistance occurred in seven out of ten models. We identified the mechanisms of acquired drug resistance to be either re-expression of MGMT and/or mutations in MMR genes. Biopsies of eight patients, relapsing upon TMZ based regimen after a long lasting clinical benefit (>3 months), were analyzed for MGMT re-expression and for exome or target panel next generation sequencing. These analyses confirmed the results found in preclinical models: five biopsies showed MGMT re-expression, two demonstrated mutations in the MMR genes (i.e. MSH6 or MSH2), and one displayed a mutation in BRCA2. Interestingly, biopsies and cell lines in which resistance was associated to alterations in DNA repair genes displayed increased mutational loads compared to pre-treatment samples. Despite the absence of the microsatellite switch commonly found in MMR deficient driven cancer, follow up over time in absence of drug of a subset of resistant cell line models demonstrated that those which displayed a mutation in the MMR had an accumulation of predicted neo-antigens, suggesting an increased immunogenicity. This work has implications for the design of future trials incorporating TMZ as part of a multi-modality strategy for treating MGMT deficient and MMR proficient CRC. Citation Format: Ludovic Barault, Giovanni Germano, Simona Lamba, Giuseppe Rospo, Alessandro Magri, Federica Maione, Mariangela Russo, Giovanni Crisafulli, Chiara Falcomatà, Carlotta Cancelliere, Alice Bartolini, Giulia Lerda, Giulia Siravegna, Benedetta Mussolin, Roberta Frapolli, Monica Montone, Giovanni Randon, Filippo de Braud, Nabil Amirouchene-Angelozzi, Silvia Marsoni, Maurizio D'Incalci, Armando Orlandi, Enrico Giraudo, Andrea Sartore-Bianchi, Salvatore Siena, Filippo Pietrantonio, Alberto Bardelli, Federica Di Nicolantonio. Accumulation of predicted neoantigens by MMR deficiency triggered by temozolomide treatment of human colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2743.

Published

2018

7. Abstract 2913: Emergence of RAS or EGFR mutant clones affects duration of response to EGFR blockade in colorectal cancers

Author

Andrea Sartore-Bianchi, Joan Albanell, Michela Buscarino, Federica Baldi, Benedetta Mussolin, Clara Montagut, Sabrina Arena, Giorgio Corti, Giovanni Crisafulli, Federica Di Nicolantonio, Agostino Ponzetti, Giulia Siravegna, Alberto Bardelli, Beatriz Bellosillo, Alice Bartolini, Beth O. Van Emburgh, Filippo Pietrantonio, Salvatore Siena, Giovanni Germano, Joana Vidal, Luca Lazzari, and Emanuele Valtorta

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Duration (music), Internal medicine, Immunology, Medicine, business, Blockade

Abstract

Cetuximab and panitumumab are monoclonal anti-EGFR antibodies (moAbs) currently used for the treatment of advanced RAS wild type colorectal cancers (CRC). Emergence of acquired resistance invariably limits the efficacy of these agents, and the dynamics of clonal evolution during anti-EGFR blockade are poorly understood. At progression, RAS mutations represent the most common genetic alterations, while EGFR extracellular domain (ECD) mutations are acquired by a smaller cohort of patients. We found that the mutation profile correlates with the clinical outcome of patients; in particular those who develop RAS mutations upon EGFR blockade achieve reduced tumor shrinkage and shorter duration of response respect to patients in which EGFR ECD mutations emerge during therapy. We investigated in preclinical models the potential role of RAS and EGFR ECD mutations during the emergence of acquired resistance, by tracking the evolution of clones in a genetically barcoded population of CRC cells chronically treated with cetuximab. We observed that therapeutic (target therapy, chemotherapy) and environmental (reduced nutrient condition) pressures differentially shape the clonal composition of CRC cell populations, leading to the emergence of clones with the highest fitness in presence of the external pressure. In conclusion, a multistep clonal evolution process characterizes the development of drug resistance and is associated with the clinical outcome of CRC patients treated with anti-EGFR antibodies. Citation Format: Sabrina Arena, Beth Van Emburgh, Giulia Siravegna, Luca Lazzari, Giovanni Crisafulli, Giorgio Corti, Benedetta Mussolin, Federica Baldi, Michela Buscarino, Alice Bartolini, Emanuele Valtorta, Joana Vidal, Beatriz Bellosillo, Giovanni Germano, Filippo Pietrantonio, Agostino Ponzetti, Joan Albanell, Salvatore Siena, Andrea Sartore-Bianchi, Federica Di Nicolantonio, Clara Montagut, Alberto Bardelli. Emergence of RAS or EGFR mutant clones affects duration of response to EGFR blockade in colorectal cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 2913. doi:10.1158/1538-7445.AM2017-2913

Published

2017

8. Abstract 3834: Tracking CAD-ALK gene translocation in urine and plasma of a colorectal cancer patient treated with ALK blockade

Author

Salvatore Siena, Giovanni Crisafulli, Alice Bartolini, Federica Tosi, Federica Di Nicolantonio, Benedetta Mussolin, Giulia Siravegna, Luca Novara, Laura Palmieri, Alberto Bardelli, Michela Buscarino, Mark G. Erlander, Andrea Cassingena, Andrea Sartore-Bianchi, and Giorgio Corti

Subjects

Cancer Research, Pathology, medicine.medical_specialty, Oncology, business.industry, Colorectal cancer, ALK Gene Translocation, Cancer research, Medicine, Urine, business, medicine.disease, Blockade

Abstract

A metastatic colorectal cancer (mCRC) patient carrying CAD-ALK translocation achieved partial response to an experimental ALK inhibitor and then progressed after 5 months. We studied whether urine cell-free, trans-renal DNA (tr-DNA) could be used to monitor tumor burden and patient’s response. A NGS panel was developed to interrogate 52 common cancer gene rearrangements and 14 frequently mutated genes in cancer patients. A TP53 p.R248W mutation and the CAD-ALK genomic breakpoint (rearrangement) were identified in the tumor tissue and matched plasma circulating tumor DNA (ctDNA) Urine samples were longitudinally obtained from the patient during ALK inhibitor treatment in parallel with blood. To detect the CAD-ALK translocation in urine tr-DNA we designed ultra-short (51 bp amplicon) primer pairs spanning the genomic breakpoint as a unique tumor marker. This approach allowed the non-invasive monitoring of the gene fusion in urine with amounts paralleling tumor burden. Of note, CAD-ALK gene fusion was apparent in urine tr-DNA before radiological confirmation of disease progression. The same strategy was applied to plasma ctDNA and the results were compared. To detect point mutations in urine tr-DNA, we exploited a peptide nucleic acids (PNA)-CLAMP PCR coupled with droplet digital PCR (ddPCR) analysis to specifically suppress amplification of wild-type DNA fragments. Custom PNA probes were designed for TP53 codon 248, and a ddPCR assay was optimized to detect the TP53 p.R248W mutation, which was then identified in all urine tr-DNA samples, with absolute copies correlating with tumor burden throughout ALK inhibitor treatment. In conclusion, we find that urine tr-DNA can be exploited to non-invasively monitor tumor burden by detecting tumor-specific gene fusions as well as point mutations. Citation Format: Giulia Siravegna, Andrea Sartore-Bianchi, Benedetta Mussolin, Laura Palmieri, Federica Tosi, Andrea Cassingena, Luca Novara, Michela Buscarino, Giorgio Corti, Giovanni Crisafulli, Alice Bartolini, Mark Erlander, Federica Di Nicolantonio, Salvatore Siena, Alberto Bardelli. Tracking CAD-ALK gene translocation in urine and plasma of a colorectal cancer patient treated with ALK blockade [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 3834. doi:10.1158/1538-7445.AM2017-3834

Published

2017

9. Abstract 1163: Microenvironment targets in KRAS-mutated metastatic colorectal cancer

Author

Giorgio Corti, Alice Bartolini, Federico Bussolino, Simona Lamba, Marco Soster, Davide Corà, Sabrina Cardaci, Federica Di Nicolantonio, and Serena Marchiò

Subjects

Cancer Research, Tumor microenvironment, Colorectal cancer, business.industry, Biopanning, medicine.disease, medicine.disease_cause, Metastasis, Oncology, In vivo, Immunology, medicine, Cancer research, Immunohistochemistry, KRAS, business, Ex vivo

Abstract

The introduction of biodrugs, e.g. the anti-EGFR antibodies, was initially seen as a promise to radically change the landscape for patients with metastatic colorectal cancer. However, although EGFR-targeted therapies, combined with chemotherapy, have prolonged survival expectancy to 24 months, cure remains anecdotal. Target therapies suffer of high costs, important side effects, and low response rates: it is now clear that this approach as it was originally conceived failed to meet the majority of its expectations. Importantly, because of novel prescription guidelines, patients with KRAS-mutated tumors are excluded from EGFR-targeted therapies: for these patients alternative treatments are urgently needed. We here propose an innovative strategy based on the identification of molecular targets specifically associated with the microenvironment of metastatic colorectal cancer in patients carrying oncogenic KRAS. For this purpose, we set up mice models of metastatic colorectal cancer by intrasplenic (to evaluate liver homing) and intrahepatic (to investigate liver colonization) implantation of human colorectal cancer cell lines (SW48 and LIM1215) in which oncogenic KRAS (G12D, G12V, G13D) variants have been somatically knocked-in. We based our “target fishing” strategy on high-throughput, phage display-mediated proteomic screenings of deriving tumor samples ex vivo. Proteome signatures from the cognate cell lines in vitro served as a subtractive reference for the ex vivo biopanning, aimed at the identification of peptide ligands specific for non-epithelial components. By this combined biological-genetic-bioinformatics approach, we identified peptide/protein signatures selectively associated to metastasis microenvironments with controlled genetic backgrounds in vitro and in vivo. We selected 2 target proteins and 2 targeting peptides, which were exploited for diagnostic and therapeutic purposes. First, we evaluated by IHC the presence and localization of the target proteins in samples (tumor, healthy liver) from a panel of human biopsies and from the described in vivo models. This analysis confirmed a specific enrichment in KRAS-mutated microenvironments. Second, we tested the capability of dye-conjugated targeting peptides to home to these same tumor microenvironments, observing a specific accumulation in target tissues, compared to their scrambled versions and to control tissues. Third, we investigated a potential anti-metastatic effect of these peptides when orthotopically co-injected with colorectal cancer cell lines; preliminary experiments revealed that the targeting peptides, but not the scrambled variants, inhibit the onset of liver metastases from KRAS-mutated cell lines. In summary, we obtained proof-of-concept results in preclinical studies and produced prototype compounds to provide innovative tools that can be translated into the clinical practice with a mid-term perspective. Citation Format: Serena Marchio, Alice Bartolini, Sabrina Cardaci, Marco Soster, Giorgio Corti, Simona Lamba, Federico Bussolino, Davide Cora', Federica Di Nicolantonio. Microenvironment targets in KRAS-mutated metastatic colorectal cancer. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 1163. doi:10.1158/1538-7445.AM2014-1163

Published

2014

10. Abstract 5620: Novel phage display-derived neuroblastoma-targeting peptides potentiate the effect of drug nanocarriers in preclinical settings

Author

Marco Soster, Theresa M. Allen, Renato Longhi, Chiara Brignole, Jessica Sun, Alice Bartolini, Claudio Gambini, Monica Sani, Renata Pasqualini, Wadih Arap, Flavio Curnis, Angelo Corti, Pamela Becherini, Michele Cilli, Mirco Ponzoni, Daniela Di Paolo, Federico Bussolino, Alessandro Gori, Laura Emionite, Fabio Pastorino, Andrea Petretto, Serena Marchiò, and Monica Loi

Subjects

Cancer Research, Phage display, Stromal cell, business.industry, medicine.disease, Primary tumor, In vitro, Therapeutic index, Oncology, In vivo, Neuroblastoma, Immunology, Cancer research, Medicine, Nanocarriers, business

Abstract

Purpose: Molecular targeting of drug delivery nanocarriers is expected to improve their therapeutic index while decreasing their toxicity. The identification of novel peptide ligands specific for cells present in high-risk neuroblastoma, a childhood tumor mostly refractory to current therapies, is needed. Experimental design: We performed combined in vitro/ex-vivo phage display screenings on human neuroblastoma cell lines and on tumors derived from orthotopic mouse models of human neuroblastoma. Binding validation and homing in vivo of selected phage clones were tested by immunohistochemistry/immunofluorescent analyses. Cell association experiments in vitro with the corresponding synthetic biotin-labeled peptides were performed. In vitro cytotoxicity and in vivo tumor accumulation and therapeutic experiments were performed using peptide-targeted, doxorubicin-loaded, nanocarriers. Results: By designing proper subtractive protocols, we identified phage clones specific either for the primary tumor, its metastases, or for the stromal components. Globally, we isolated 121 phage-displayed neuroblastoma-binding peptides; of these, 26 bound the primary tumor, 15 the metastatic mass, 57 and 23 their respective microenvironments. Of these, five phage clones were further validated for their specific binding ex-vivo to biopsies from stage IV neuroblastoma patients and to neuroblastoma tumors derived from mice. All five clones also targeted tumor cells and vasculature in vivo when injected into neuroblastoma-bearing mice. Coupling of the corresponding targeting peptides with doxorubicin-loaded nanocarriers led to a significant inhibition in tumor volume and enhanced survival in preclinical neuroblastoma models. Conclusions: Our findings demonstrate that novel ligands of neuroblastoma-associated markers are functional in the design of nanocarriers with therapeutic efficacy paving the way to their clinical development. Citation Format: Monica Loi, Daniela Di Paolo, Marco Soster, Chiara Brignole, Alice Bartolini, Laura Emionite, Jessica Sun, Pamela Becherini, Flavio Curnis, Andrea Petretto, Monica Sani, Alessandro Gori, Claudio Gambini, Renato Longhi, Michele Cilli, Theresa M. Allen, Federico Bussolino, Wadih Arap, Renata Pasqualini, Angelo Corti, Mirco Ponzoni, Serena Marchiò, Fabio Pastorino. Novel phage display-derived neuroblastoma-targeting peptides potentiate the effect of drug nanocarriers in preclinical settings. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 5620. doi:10.1158/1538-7445.AM2013-5620

Published

2013